ライフサイエンスコーパス: metabolic reaction

1 s sustained by a variety of redox-controlled metabolic reactions.

2 in all kingdoms and involved in a variety of metabolic reactions.

3 sequester this energy-rich carbon source for metabolic reactions.

4 y removed from the broth, suggesting further metabolic reactions.

5 from NADPH to P450, which in turn catalyzes metabolic reactions.

6 in the human body that participates in many metabolic reactions.

7 number of species required to catalyze these metabolic reactions.

8 ts central role in over one hundred cellular metabolic reactions.

9 s in vivo limits studies to relatively fast metabolic reactions.

10 y proteins involved in electron transfer and metabolic reactions.

11 the conditions of fast kinetics typical for metabolic reactions.

12 000 regulatory interactions controlling 1597 metabolic reactions.

13 uilibrium thermodynamics or for the study of metabolic reactions.

14 of substrates and catalyze 65% of the known metabolic reactions.

15 ession of the enzymes catalyzing the related metabolic reactions.

16 ing a broad repertoire of cell behaviors and metabolic reactions.

17 determining genes and the energy barrier for metabolic reactions.

18 derscoring its importance in a wide array of metabolic reactions.

19 a stoichiometric model that encompasses 679 metabolic reactions.

20 zymes associated with them catalyze adjacent metabolic reactions.

21 osynthesis, gravity perception, and numerous metabolic reactions.

22 red as enzyme cofactors in a wide variety of metabolic reactions.

23 and in the control of enzyme activities and metabolic reactions.

24 factors and targets, and complex pathways of metabolic reactions.

25 Plant peroxisomal proteins catalyze key metabolic reactions.

26 fatty acid beta-oxidation and other critical metabolic reactions.

27 During metabolic reaction, absorption of leflunomide split into

28 enome scale modeling is identifying critical metabolic reactions across diverse human tissues.

29 tabolic products (375,809 compounds from one metabolic reaction and 10,583,901 from two reactions).

30 accharomyces cerevisiae, consisting of 1,175 metabolic reactions and 733 metabolites, has appeared.

31 44 open reading frames and consisted of 1020 metabolic reactions and 988 metabolites.

32 ential coenzyme NAD plays important roles in metabolic reactions and cell regulation in all organisms

33 uantitatively the extent to which individual metabolic reactions and enzymes can be bypassed.

34 for connecting metabolites to genes through metabolic reactions and enzymes that catalyze them.

35 We used (13)C or (15)N tracers to assess metabolic reactions and fluxes and real time quantitativ

36 6, consists of 806 genes associated with 667 metabolic reactions and includes a detailed representati

37 F) assumes an essential role in a variety of metabolic reactions and is critical for normal cellular

38 There was concordant clustering of certain metabolic reactions and putative virulence loci but not

39 PPM metabolic reactions and stoichiometry were based on Chla

40 lar attention is paid to recently elucidated metabolic reactions and the genetic characterization of

41 osystem respiration based on the kinetics of metabolic reactions and the scaling of resource use by i

42 factor-target interactions regulating 3,300 metabolic reactions, and 1,905 KO phenotypes for E. coli

43 ith network connectivity, irreversibility of metabolic reactions, and maximal flux capacities.

44 ch as toxic pathway intermediates, competing metabolic reactions, and slow reaction rates.

45 metabolic pathways and the presence of novel metabolic reactions are often determined by feeding isot

46 and 54 pairs of enzymes whose corresponding metabolic reactions are predicted to be unconditionally

47 l framework within which the organization of metabolic reactions can be analyzed and elucidated.

48 Biotin is an essential cofactor for multiple metabolic reactions catalyzed by carboxylases.

49 Understanding how metabolic reactions, cell signaling, and developmental p

50 Thus, this HTCS functions as a metabolic reaction center, coupling nutrient sensing to

51 Peroxisomes compartmentalize certain metabolic reactions critical to plant and animal develop

52 The sets of individual metabolic reactions deriving these systemic conversions,

53 With an accurate picture of the set of metabolic reactions encoded in a genome, it is now possi

54 ox state can be exploited to drive desirable metabolic reactions, even improving productivity and yie

55 atabases dealing with chemical compounds and metabolic reactions facilitates this research and now al

56 ocesses implemented via the orchestration of metabolic reactions, gene regulation, and environmental

57 framework for ABE fermentation that combines metabolic reactions, gene regulation, and environmental

58 Although the role of biotin in metabolic reactions has long been recognized, its influe

59 Whereas most metabolic reactions have low fluxes, the overall activit

60 nzyme that catalyzes an irreversible primary metabolic reaction in plants.Previous studies have used

61 atom should considerably suppress the major metabolic reaction in sirolimus, 39-O-demethylation.

62 d their predicted metabolic products via one metabolic reaction in the Evidence-based Metabolome Libr

63 analysis to estimate the flux through every metabolic reaction in the model both when glucosinolates

64 edicting steady state rates - or fluxes - of metabolic reactions in genome-scale metabolic networks.

65 lar organelles that carry out numerous vital metabolic reactions in nearly all eukaryotes.

66 centration of enzymes catalyzing the various metabolic reactions in the crowded cytoplasm.

67 needed for reducing equivalents generated by metabolic reactions in the cytosol to be oxidized via ae

68 Molybdenum-containing enzymes catalyze basic metabolic reactions in the nitrogen, sulfur, and carbon

69 hared tissue-specific or uniformly essential metabolic reactions in their metabolic networks.

70 ofluidic device for coupled phase I/phase II metabolic reactions in vitro.

71 er activity, which is critical for important metabolic reactions, including diphthamide biosynthesis.

72 nt a relatively simple method for extracting metabolic reaction information from free text that score

73 Plant peroxisomes accommodate a multitude of metabolic reactions, many of which are related to the be

74 Metabolic reaction maps allow visualization of genome-sc

75 Using metabolic reaction maps of yeast, Arabidopsis, and human

76 econd, we determined the cytochrome-mediated metabolic reactions most typical for each group and exam

77 With the metabolic reaction network established, it becomes neces

78 signature of BM composition was mapped as a metabolic reaction network highlighting interconnected b

79 A general metabolic reaction network model developed in this paper

80 to fluorescence correlation spectroscopy and metabolic reaction networks.

81 tant water soluble vitamin (B2) required for metabolic reactions, normal cellular growth, differentia

82 ch Stt4/PI4KIIIalpha recruitment, and thus a metabolic reaction of fundamental importance in cell phy

83 ucuronic acid is the most important phase II metabolic reaction of steroidal compounds.

84 During oxygenic photosynthesis, metabolic reactions of CO2 fixation require more ATP tha

85 This genotype contains 488 metabolic reactions operating on 343 metabolites.

86 rted into the cell but are not inputs to any metabolic reaction or pathway; and comparative analyses

87 Thus, we can now define systemic metabolic reactions, or eigen-reactions, for the study o

88 gmatis were deconvoluted with a genome-scale metabolic reaction-pair network to generate hypotheses a

89 ested that long-term HFD may affect specific metabolic reaction/pathways by altering enzyme activitie

90 In the presence of these varying metabolic reactions, PMNs (37 or 4 degreesC; +/- triacsi

91 Both cell lines exhibited distinct metabolic reaction profiles but shared elevated levels o

92 Under these conditions, a metabolic reaction system can be reconceptualized in ter

93 Mitochondria carry out numerous metabolic reactions that are critical to cellular homeos

94 Peroxisomes house critical metabolic reactions that are essential for seedling deve

95 chemical moieties through the complex set of metabolic reactions that happen in the cell is essential

96 oli, 547 enzymes encoded by these genes, 702 metabolic reactions that occur in E.coli and the organiz

97 nes, 306 enzymes encoded by these genes, 580 metabolic reactions that occur in E.coli and the organiz

98 ymes encoded by a subset of these genes, 595 metabolic reactions that occur in E.coli, and the organi

99 ymes encoded by a subset of these genes, 904 metabolic reactions that occur in E.coli, and the organi

100 dation of sulfides to sulfoxides is a common metabolic reaction, the sulfides derived from brefeldin

101 ctional enzyme that can catalyze consecutive metabolic reactions, the aspartokinase I domain was fuse

102 est the coupling of cytoplasmic and vacuolar metabolic reactions through ASC-mediated redox activity.

103 t symbiont genomes and a complete mapping of metabolic reactions to an Escherichia coli in silico mod

104 thermodynamic bottlenecks and enable diverse metabolic reactions to occur under the oligotrophic cond

105 Here we use four non-native metabolic reactions to rewire central carbon metabolism

106 on correlation coefficients is calculated, a metabolic reaction tree can be determined through the ap

107 ents, and the subsequent construction of the metabolic reaction tree is readily achievable for genome

108 ierarchically into sets of modules to form a metabolic reaction tree.

109 mmon, and iPY1537 and iJB1411 have 67 and 36 metabolic reactions unique to each, respectively.

110 hrough the resilencings of the non-essential metabolic reactions, using growth rate as selection prob

111 RA level is maintained through a cascade of metabolic reactions where retinal dehydrogenases (RALDHs

112 dinucleotide (FAD) is involved in important metabolic reactions where the biological function is int

113 e two examples are chosen to illustrate that metabolic reactions with high control strength participa

114 trongest driver of the net rates of cellular metabolic reactions, with metabolite concentrations coll

115 erential equations describing the individual metabolic reactions within the cardiomyocyte over time.